A Near-Eye-Display (NED) device having a housing shell that is integrated with molded boss clusters for precision mounting of hardware components. The techniques disclosed herein include forming a housing shell directly over one or more pre-molded boss clusters that have been inserted into cavities of a housing shell mold core. For example, with the pre-molded boss clusters already inserted into the cavities, a selected housing shell material such as a thermosetting epoxy resin impregnated carbon fiber reinforced (CFRP) fabric may be thermal compression molded over the housing shell mold core. Individual ones of the pre-molded boss clusters include one or more three-dimensional (3D) bosses for mounting various hardware components of the NED device. The bosses may protrude from an inner surface of the housing shell and may provide interior mounting features without affecting the appearance of the outer surface of the housing shell.

A Near-Eye-Display (NED) device having a housing shell that is integrated with molded boss clusters for precision mounting of hardware components. The techniques disclosed herein include forming a housing shell directly over one or more pre-molded boss clusters that have been inserted into cavities of a housing shell mold core. For example, with the pre-molded boss clusters already inserted into the cavities, a selected housing shell material such as a thermosetting epoxy resin impregnated carbon fiber reinforced (CFRP) fabric may be thermal compression molded over the housing shell mold core. Individual ones of the pre-molded boss clusters include one or more three-dimensional (3D) bosses for mounting various hardware components of the NED device. The bosses may protrude from an inner surface of the housing shell and may provide interior mounting features without affecting the appearance of the outer surface of the housing shell.

Described is a mold for generating a pattern of indentations in a surface of a thermoplastic textile, including at least one subunit adapted to create at least one subpattern of the pattern, wherein the at least one subunit is at least one of exchangeable or reconfigurable. A spatial arrangement of the at least one subunit is reconfigurable within the mold.

Disclosed herein is a method for filament winding. The method includes bonding a veil material to the unidirectional fabric to veil-stabilize the unidirectional fabric. The method also includes slitting the veil-stabilized unidirectional fabric to separate a veil-stabilized fabric portion. The method also includes directing the veil-stabilized fabric portion to an application head. The method also includes winding the veil-stabilized fabric portion on a winding mandrel.

A process for manufacturing an undergarment having two superimposed textiles, comprising depositing on certain parts of reinforcements (8) comprising a thick layer of a shaped memory foam elastic material, the polymerization of this material and also the shaping of the textiles of the undergarment by thermoforming, characterized in that it comprises a step of depositing, on the entire surface of at least the textiles, a thin layer of an elastic adhesive-bonding material, and then a step of polymerizing this thin layer of adhesive bonding during the thermoforming for shaping, and in that it comprises a step of prior depositing, on the textile receiving the layer of reinforcement (8), of a barrier layer of an elastic material, which is polymerized before the depositing of this reinforcement.

A belt made up of an elastomeric belt body, an electrically conductive tensile cord such as carbon fiber cord in a cord layer reinforcing the belt body, an outer layer of electrically conductive thermoplastic material such as polypropylene film, and an electrically conductive fabric layer residing between the tensile cord layer and the outer layer and providing electrical continuity between the outer layer and the tensile cord. An electrically conductive thread may be woven in the fabric and may present at both surfaces of the fabric and contact both the outer layer and the tensile cord to provide the electrical continuity there between.

A method for producing a laminate including a substrate and a rubber layer, the rubber layer having a thickness of 200 m or more from the surface of the substrate, the method including contacting the substrate in a heated state with a polymer latex having a viscosity of 2,000 to 100,000 mPa.Math.s at 25 C. to thereby coagulate the polymer in contact therewith to form the rubber layer.

A seat for vehicles including a seat cushion, a seat back, and a head rest has the following arrangement to ensure that a surface member can be relatively easily but positively removed from a urethane pad if a foam molding defect is found in the urethane pad in integral molding of the urethane pad and the surface member. In the seat for vehicles, any one of the seat cushion, seat back, and head rest has a configuration where a surface of the urethane pad is covered with the surface member. The urethane pad and the surface member are partially bonded together by integral molding.

A composite material molded product has a hollow portion, a bent portion, or a curved portion in a transverse section thereof. When the composite material molded product has, for example, a bent portion, a surface on an inside of the bent portion is a pressed surface. A mold includes a pressing body that is thermally expandable and has an outer surface shape corresponding to a shape of a pressed surface, and a mold main body including a cavity accommodating the laminate and the pressing body inside, the cavity including an inner surface shape corresponding to a shape other than the pressed surface. The cavity is sealed in a state that the pressing body is disposed in the cavity. The laminate is accommodated in a molding space formed between an inner surface of the cavity and an outer surface of the pressing body.

The disclosure relates to an apparatus for the production of parisons from fiber-reinforced plastic, having a feed arrangement for the continuous feed of a laid fiber fabric and having a transverse deformation arrangement with a draping apparatus for the deformation of the fed laid fiber fabric to form a predefined nominal profile. The apparatus is distinguished by the fact that the draping apparatus is adjustable for a variation of a cross section of the nominal profile. The disclosure also relates to a corresponding method for the production of parisons from fiber-reinforced plastic.